塔里木盆地“深地一号”超深层超长位移井地质与工程融合实践

doi:10.7623/syxb202503010

石油学报 ›› 2025, Vol. 46 ›› Issue (3): 609-620.DOI: 10.7623/syxb202503010

• 石油工程 • 上一篇

塔里木盆地“深地一号”超深层超长位移井地质与工程融合实践

云露¹, 曹自成¹, 刘湘华¹, 任文博¹, 王龙², 韩俊³, 曹飞³, 陈菁萍³, 陈修平²

1. 中国石油化工股份有限公司西北油田分公司新疆乌鲁木齐 830011;
2. 中国石油化工股份有限公司西北油田分公司石油工程技术研究院新疆乌鲁木齐 830011;
3. 中国石油化工股份有限公司西北油田分公司勘探开发研究院新疆乌鲁木齐 830011

收稿日期:2024-07-03 修回日期:2024-12-06 发布日期:2025-04-03
作者简介:云露,男,1972年11月生,2009年获中国地质大学(北京)矿产普查与勘探专业博士学位,现为中国石油化工股份有限公司西北油田分公司正高级工程师,主要从事石油天然气地质综合研究。Email:yunl8.xbsj@sinopec.com
基金资助:
国家自然科学基金项目(No.U21B2063,No.U24B6001)、中国石油化工股份有限公司科技部项目(P23078、P24172)和新疆维吾尔自治区天山英才计划优秀工程师项目“顺北超深碳酸盐岩油气藏高效勘探开发”资助。

Practices of geological and engineering integration of ultra-deep and ultra-long displacement wells in the "Shendi-1" ultra-deep zone of Tarim Basin

Yun Lu¹, Cao Zicheng¹, Liu Xianghua¹, Ren Wenbo¹, Wang Long², Han Jun³, Cao Fei³, Chen Jingping³, Chen Xiuping²

1. Sinopec Northwest Oilfield Company, Xinjiang Urumqi 830011, China;
2. Petroleum Engineering Technology Research Institute, Sinopec Northwest Oilfield Company, Xinjiang Urumqi 830011, China;
3. Exploration and Development Research Institute, Sinopec Northwest Oilfield Company, Xinjiang Urumqi 830011, China

Received:2024-07-03 Revised:2024-12-06 Published:2025-04-03

摘要/Abstract

摘要： 塔里木盆地中国石油化工股份有限公司“深地一号”工程以超深层走滑断控型油气藏的勘探开发为特色。跃进区块位于沙雅隆起南缘,紧邻顺托果勒低隆北部,发育3条受NE向走滑断裂带控制为主的油气富集带,具有“目的层埋深大(>7 000 m)、断裂带内部储层非均质性强、地表胡杨林保护区覆盖”的特点。自2012年勘探突破后,历经十多年开采仍存在较大规模未动用储量。深化油气成藏与分布规律认识,实现保护区之下超深层油气藏高效动用,是地质与工程融合实践面临的重大挑战。基于对区域断控型油气成藏条件分析,以及井区断裂解析和储集体立体刻画研究,在地质上明确油气藏与未动用储量分布,优选设计靶区;工程上根据超深层超长位移成井难点,采取井眼轨道优化设计与轨迹控制、井眼清洁、大斜度长裸眼井壁稳定、钻井综合提速技术及套管安全下入等工程技术手段,保障跃进3-3XC井顺利完钻并测试获高产油气流,且井(斜)深为9 432.55 m、垂深为7 212.53 m、水平位移为3 439.34 m,成为超深层复杂油气藏地质与工程融合实践的典型案例。

关键词: 塔里木盆地, 超深层, 断控型油气藏, 超长位移, 地质与工程融合实践, 成藏富集, 高效动用

Abstract: The Sinopec "Shendi-1" project in Tarim Basin is characterized by the exploration and development of ultra-deep strike-slip fault-controlled oil and gas reservoirs. Yuejin block, located on the southern margin of Shaya uplift and adjacent to the northern part of the Shuntuoguole low uplift, develops three oil and gas enrichment belts primarily controlled by NE-trending strike-slip faults. This region is distinguished by its ultra-deep target formations (>7 000 m), high reservoir heterogeneity within fault zones, and surface coverage by poplar forest reserves. Despite breakthroughs in exploration since 2012 and more than a decade of production, there are still a large scale of untapped reserves. Great challenges are encountered in the geological engineering practices, and it is required to deepen the understandings of hydrocarbon accumulation and distribution patterns and achieve the efficient production of ultra-deep reservoirs beneath protected areas. Based on analyses of the regional fault-controlled hydrocarbon accumulation conditions and faults, as well as three-dimensional reservoir characterization in the well area, the geological study has identified the distribution of oil and gas reservoirs and untapped reserves, thus optimizing target selection. From an engineering perspective, solutions to the difficulties of ultra-deep layer and ultra-long displacement during well completion mainly include optimization of borehole trajectory design and control, borehole cleaning, stable large-inclination and long-open borehole, as well as the technologies of accelerating drilling operations and safe casing running. These techniques can enable the successful completion of Well Yuejin 3-3XC, which has obtained high-yeld oil and gas flow during testing. The well has set a domestic record with a measured depth of 9 432.55 m(slant)/ 7 212.53 m (vertical)and a horizontal displacement of 3 439.34 m, marking it as a landmark case in geological and engineering practices for complex ultra-deep reservoirs.

Key words: Tarim Basin, ultra-deep, fault-controlled reservoirs, ultra-long displacement, practices of geological and engineering integration, hydrocarbon accumulation, efficient production

中图分类号:

TE11

云露, 曹自成, 刘湘华, 任文博, 王龙, 韩俊, 曹飞, 陈菁萍, 陈修平. 塔里木盆地“深地一号”超深层超长位移井地质与工程融合实践[J]. 石油学报, 2025, 46(3): 609-620.

Yun Lu, Cao Zicheng, Liu Xianghua, Ren Wenbo, Wang Long, Han Jun, Cao Fei, Chen Jingping, Chen Xiuping. Practices of geological and engineering integration of ultra-deep and ultra-long displacement wells in the "Shendi-1" ultra-deep zone of Tarim Basin[J]. Acta Petrolei Sinica, 2025, 46(3): 609-620.

参考文献

[1] 马永生,蔡勋育,云露,等.塔里木盆地顺北超深层碳酸盐岩油气田勘探开发实践与理论技术进展[J].石油勘探与开发,2022,49(1): 1-17.
MA Yongsheng,CAI Xunyu,YUN Lu,et al.Practice and theoretical and technical progress in exploration and development of Shunbei ultra-deep carbonate oil and gas field,Tarim Basin,NW China[J].Petroleum Exploration & Development,2022,49(1):1-17.
[2] 马永生,蔡勋育,黎茂稳,等.深层—超深层海相碳酸盐岩成储成藏机理与油气藏开发方法研究进展[J].石油勘探与开发,2024,51(4):692-707.
MA Yongsheng,CAI Xunyu,LI Maowen,et al.Research advances on the mechanisms of reservoir formation and hydrocarbon accumulation and the oil and gas development methods of deep and ultra-deep marine carbonates[J].Petroleum Exploration & Development,2024,51(4):692-707.
[3] 赵文智,汪泽成,黄福喜,等.中国陆上叠合盆地超深层油气成藏条件与勘探地位[J].石油学报,2023,44(12):2020-2032.
ZHAO Wenzhi,WANG Zecheng,HUANG Fuxi,et al.Hydrocarbon accumulation conditions and exploration position of ultra-deep reservoirs in onshore superimposed Basins of China[J].Acta Petrolei Sinica,2023,44(12):2020-2032.
[4] 朱光有,姜华,黄士鹏,等.中国海相油气成藏理论新进展与超大型油气区预测[J/OL].石油学报,(2023-06-26)[2024-12-17].http://kns.cnki.net/kcms/detail/11.2128.TE.20230625.1736.002.html.
ZHU Guangyou,JIANG Hua,HUANG Shipeng,et al.New progress of marine hydrocarbon accumulation theory and prediction of super large oil and gas areas in China[J/OL].Acta Petrolei Sinica,(2023-06-26)[2024-12-17].http://kns.cnki.net/kcms/detail/11.2128.TE.20230625.1736.002.html.
[5] 白国平,曹斌风.全球深层油气藏及其分布规律[J].石油与天然气地质,2014,35(1):19-25.
BAI Guoping,CAO Binfeng.Characteristics and distribution patterns of deep petroleum accumulations in the world[J].Oil & Gas Geology,2014,35(1):19-25.
[6] 梁霄,陈杰,刘若林,等.阿曼盆地5区埃迪卡拉系超深层海相油气勘探目标及前景[C]//2021油气田勘探与开发国际会议论文集(上册).青岛:西安石油大学,中国石油大学(华东),陕西省石油学会,2021:2.
LIANG Xiao,CHEN Jie,LIU Ruolin,et al.The marine oil and gas exploration targets and prospects of ultra-deep ediacaran petroleum system in Block 5,Oman Basin[C]//2021 International Field Exploration and Development Conference Proceedings.Qingdao:Xi’an Shiyou University,China University of Petroleum (East China),Shaanxi Petroleum Society,2021:2.
[7] 梁子锐,刘晶,熊治富,等.川北元坝地区下寒武统仙女洞组储层特征及油气勘探潜力[J].天然气技术与经济,2021,15(3):14-20.
LIANG Zirui,LIU Jing,XIONG Zhifu,et al.Reservoir characteristics and exploration potential of the Cambrian Xiannvdong Formation,Yuanba area,northern Sichuan Basin[J].Natural Gas Technology and Economy,2021,15(3):14-20.
[8] 文龙,谢继容,张本健,等.四川盆地德阳—安岳裂陷西侧大探1井震旦系灯影组天然气勘探重大突破及意义[J].天然气工业,2023,43(11):7-18.
WEN Long,XIE Jirong,ZHANG Benjian,et al.Well Datan 1 in west side of Deyang-Anyue rift,Sichuan Basin:great breakthrough in natural gas exploration in Sinian Dengying Formation and its significance[J].Natural Gas Industry,2023,43(11):7-18.
[9] 江同文,田威振,唐青松,等.四川盆地川中地区深层碳酸盐岩走滑断层控藏作用[J].石油学报,2024,45(8):1174-1186.
JIANG Tongwen,TIAN Weizhen,TANG Qingsong,et al.The strike-slip fault effect on deep carbonate gas accumulation in the central Sichuan Basin[J].Acta Petrolei Sinica,2024,45(8):1174-1186.
[10] 杨雨,文龙,周刚,等.四川盆地油气勘探新领域、新类型及资源潜力[J].石油学报,2023,44(12):2045-2069.
YANG Yu,WEN Long,ZHOU Gang,et al.New fields,new types and resource potentials of hydrocarbon exploration in Sichuan Basin[J].Acta Petrolei Sinica,2023,44(12):2045-2069.
[11] 赵东方,谭秀成,罗文军,等.早成岩期岩溶特征及其对古老深层碳酸盐岩储层的成因启示——以川中地区磨溪8井区灯影组四段为例[J].石油学报,2022,43(9):1236-1252.
ZHAO Dongfang,TAN Xiucheng,LUO Wenjun,et al.Karst characteristics at early diagenetic stage and their enlightenment for the origin of ancient deep carbonate reservoirs:a case study of the Member 4 of Dengying Formation in Moxi 8 well area,central Sichuan[J].Acta Petrolei Sinica,2022,43(9):1236-1252.
[12] 漆立新.塔里木盆地顺托果勒隆起奥陶系碳酸盐岩超深层油气突破及其意义[J].中国石油勘探,2016,21(3):38-51.
QI Lixin.Oil and gas breakthrough in ultra-deep ordovician carbonate formations in Shuntuoguole uplift,Tarim Basin[J]China Petroleum Exploration,2016,21(3):38-51.
[13] 漆立新.塔里木盆地顺北超深断溶体油藏特征与启示[J].中国石油勘探,2020,25(1):102-111.
QI Lixin.Characteristics and inspiration of ultra-deep fault-karst reservoir in the Shunbei area of the Tarim Basin[J].China Petroleum Exploration,2020,25(1):102-111.
[14] 王清华,杨海军,张银涛,等.塔里木盆地富满油田富东1井奥陶系重大发现及意义[J].中国石油勘探,2023,28(1):47-58.
WANG Qinghua,YANG Haijun,ZHANG Yintao,et al.Great discovery and its significance in the Ordovician in Well Fudong 1 in Fuman oilfield,Tarim Basin[J].China Petroleum Exploration,2023,28(1):47-58.
[15] 王清华,徐振平,张荣虎,等.塔里木盆地油气勘探新领域、新类型及资源潜力[J].石油学报,2024,45(1):15-32.
WANG Qinghua,XU Zhenping,ZHANG Ronghu,et al.New fields,new types of hydrocarbon explorations and their resource potentials in Tarim Basin[J].Acta Petrolei Sinica,2024,45(1):15-32.
[16] 常志远,赵新庆,张传进,等.沙雅隆起深探井钻井地质环境因素研究[J].石油钻探技术,1999,27(2):4-6.
CHANG Zhiyuan,ZHAO Xinqing,ZHANG Chuanjin,et al.Study on drilling geological environmental factors in Saya uplifts[J].Petroleum Drilling Techniques,1999,27(2):4-6.
[17] 王清华,杨海军,汪如军,等.塔里木盆地超深层走滑断裂断控大油气田的勘探发现与技术创新[J].中国石油勘探,2021,26(4):58-71.
WANG Qinghua,YANG Haijun,WANG Rujun,et al.Discovery and exploration technology of fault-controlled large oil and gas fields of ultra-deep formation in strike slip fault zone in Tarim Basin[J].China Petroleum Exploration,2021,26(4):58-71.
[18] 田军,杨海军,朱永峰,等.塔里木盆地富满油田成藏地质条件及勘探开发关键技术[J].石油学报,2021,42(8):971-985.
TIAN Jun,YANG Haijun,ZHU Yongfeng,et al.Geological conditions for hydrocarbon accumulation and key technologies for exploration and development in Fuman oilfield,Tarim Basin[J].Acta Petrolei Sinica,2021,42(8):971-985.
[19] 黄亚浩,汪如军,文志刚,等.塔里木盆地富满油田深层—超深层油气成藏过程[J].石油学报,2024,45(6):947-960.
HUANG Yahao,WANG Rujun,WEN Zhigang,et al.Hydrocarbon accumulation process of the deep to ultra deep reservoirs in Fuman oilfield,Tarim Basin[J].Acta Petrolei Sinica,2024,45(6):947-960.
[20] 张煜,李海英,陈修平,等.塔里木盆地顺北地区超深断控缝洞型油气藏地质-工程一体化实践与成效[J].石油与天然气地质,2022,43(6):1466-1480.
ZHANG Yu,LI Haiying,CHEN Xiuping,et al.Practice and effect of geology-engineering integration in the development of ultra-deep fault-controlled fractured-vuggy oil/gas reservoirs,Shunbei area,Tarim Basin[J].Oil & Gas Geology,2022,43(6):1466-1480.
[21] 马永生,黎茂稳,蔡勋育,等.海相深层油气富集机理与关键工程技术基础研究进展[J].石油实验地质,2021,43(5):737-748.
MA Yongsheng,LI Maowen,CAI Xunyu,et al.Advances in basic research on the mechanism of deep marine hydrocarbon enrichment and key exploitation technologies[J].Petroleum Geology & Experiment,2021,43(5):737-748.
[22] 李勇,徐珂,张辉,等.塔里木盆地超深层油气钻探工程的特殊地质因素[J].中国石油勘探,2022,27(3):88-98.
LI Yong,XU Ke,ZHANG Hui,et al.Special geological factors in drilling engineering of ultra-deep oil and gas reservoir in Tarim Baisn[J].China Petroleum Exploration,2022,27(3):88-98.
[23] 曹自成,路清华,顾忆,等.塔里木盆地顺北油气田1号和5号断裂带奥陶系油气藏特征[J].石油与天然气地质,2020,41(5):975-984.
CAO Zicheng,LU Qinghua,GU Yi,et al.Characteristics of Ordovician reservoirs in Shunbei 1 and 5 fault zones,Tarim Basin[J].Oil & Gas Geology,2020,41(5):975-984.
[24] 王斌,赵永强,何生,等.塔里木盆地顺北5号断裂带北段奥陶系油气成藏期次及其控制因素[J].石油与天然气地质,2020,41(5):965-974.
WANG Bin,ZHAO Yongqiang,HE Sheng,et al.Hydrocarbon accumulation stages and their controlling factors in the northern Ordovician Shunbei 5 fault zone,Tarim Basin[J].Oil & Gas Geology,2020,41(5):965-974.
[25] 云露.顺北地区奥陶系超深断溶体油气成藏条件[J].新疆石油地质,2021,42(2):136-142.
YUN Lu.Hydrocarbon accumulation of ultra-deep Ordovician fault-karst reservoirs in Shunbei area[J].Xinjiang Petroleum Geology,2021,42(2):136-142.
[26] 云露,邓尚.塔里木盆地深层走滑断裂差异变形与控储控藏特征——以顺北油气田为例[J].石油学报,2022,43(6):770-787.
YUN Lu,DENG Shang.Structural styles of deep strike-slip faults in Tarim Basin and the characteristics of their control on reservoir formation and hydrocarbon accumulation:a case study of Shunbei oil and gas field[J].Acta Petrolei Sinica,2022,43(6):770-787.
[27] 张煜,毛庆言,李海英,等.顺北中部超深层断控缝洞型油气藏储集体特征与实践应用[J].中国石油勘探,2023,28(1):1-13.
ZHANG Yu,MAO Qingyan,LI Haiying,et al.Characteristics and practical application of ultra-deep fault-controlled fractured-cavity type reservoir in central Shunbei area[J].China Petroleum Exploration,2023,28(1):1-13.
[28] 王清华.塔里木盆地富满油田凝析气藏成因[J].石油勘探与开发,2023,50(6):1128-1139.
WANG Qinghua.Origin of gas condensate reservoir in Fuman oilfield,Tarim Basin,NW China[J].Petroleum Exploration and Development,2023,50(6):1128-1139.
[29] 卜旭强,王来源,朱莲花,等.塔里木盆地顺北油气田奥陶系断控缝洞型储层特征及成藏模式[J].岩性油气藏,2023,35(3):152-160.
BU Xuqiang,WANG Laiyuan,ZHU Lianhua,et al.Characteristics and reservoir accumulation model of Ordovician fault-controlled fractured-vuggy reservoirs in Shunbei oil and gas field,Tarim Basin[J].Lithologic Reservoirs,2023,35(3):152-160.
[30] 乔俊程,常少英,曾溅辉,等.塔里木盆地北部富满地区超深层走滑断裂带碳酸盐岩油气差异成藏成因探讨[J].石油与天然气地质,2024,45(05):1226-1246.
QIAO Juncheng, CHANG Shaoying, ZENG Jianhui, et al.Origin of differential hydrocarbon accumulation in ultra-deep carbonate reservoirs along strike-slip fault zones in the Fuman area, northern Tarim Basin[J].Oil & Gas Geology,2024,45(05):1226-1246.
[31] 徐浩,张艳红,杨子川,等.跃参1号区块奥陶系碳酸盐岩储层预测与评价[J].石油地质与工程,2013,27(4):31-35.
XU Hao,ZHANG Yanhong,YANG Zichuan,et al.Prediction and evaluation of Ordovician carbonate reservoir in YC1 area[J].Petroleum Geology and Engineering,2013,27(4):31-35.
[32] 田鹏,马庆佑,吕海涛.塔里木盆地北部跃参区块走滑断裂对油气成藏的控制[J].石油实验地质,2016,38(2):156-161.
TIAN Peng,MA Qingyou,LV Haitao.Strike-slip faults and their controls on hydrocarbon reservoirs in the Yuecan block of the northern Tarim Uplift,Tarim Basin[J].Petroleum Geology & Experiment,2016,38(2):156-161.
[33] 窦莲,吴鲜,吴行舟,等.塔河油田跃参1号区块油气富集规律[J].特种油气藏,2015,22(1):70-74.
DOU Lian,WU Xian,WU Hangzhou,et al.Hydrocarbon-enrichment regularity in Yuecan1 block of Tahe oilfield[J].Special Oil & Gas Reservoirs,2015,22(1):70-74.
[34] 邵小明,罗明霞,刘存革,等.塔里木盆地北部跃参地区奥陶系原油地球化学特征[J].石化技术,2016,23(7):153-157.
SHAO Xiaoming,LUO Mingxia,LIU Cunge,et al.Geochemical characteristics of Ordovician crude oil in Yuecan area,northern of Tarim Basin[J].Petrochemical Industry Technology,2016,23(7): 153-157.
[35] 杨鹏,刘可禹,LI Zhen,等.塔里木盆地跃参地区YJ1X井超深层油藏演化[J].石油勘探与开发,2022,49(2):262-273.
YANG Peng,LIU Keyu,LI Zhen,et al.Evolution of Ordovician YJ1X ultra-deep oil reservoir in the Yuecan oilfield,Tarim Basin,NW China [J].Petroleum Exploration and Development,2022,49(2):262-273.
[36] 刘存革,韩拥强,刘永立,等.塔里木盆地跃进地区奥陶系储层成因机理[J].广东石油化工学院学报,2023,33(3):1-6.
LIU Cunge,HAN Yongqiang,LIU Yongli,et al.Genetic mechanism of ordovician reservoirs in Yuejin area,Tarim Basin[J].Journal of Guangdong University of Petrochemical Technology,2023,33(3):1-6.
[37] 马庆佑,吕海涛,蒋华山.塔里木盆地台盆区构造单元划分方案[J].地质论评,2015,61(增刊1):689-690.
MA Qingyou,LV Haitao,JIANG Huashan.A division program of structural units in the Paleozoic platform-Basin region,Tarim Basin[J].Geological Review,2015,61(S1):689-690.
[38] 马庆佑,吕海涛,蒋华山,等.塔里木盆地台盆区构造单元划分方案[J].海相油气地质,2015,20(1):1-9.
MA Qingyou,LV Haitao,JIANG Huashan,et al.A division program of structural units in the Paleozoic platform-basin region,Tarim Basin[J].Marine Origin Petroleum Geology,2015,20(1):1-9.
[39] 汤良杰.塔里木盆地构造演化与构造样式[J].地球科学:中国地质大学学报,1994,19(6):742-754.
TANG Liangjie.Evolution and tectonic patterns of Tarim Basin[J].Earth Science:Journal of China University of Geosciences,1994,19(6):742-754.
[40] 云露.顺北东部北东向走滑断裂体系控储控藏作用与突破意义[J].中国石油勘探,2021,26(3):41-52.
YUN Lu.Controlling effect of NE strike-slip fault system on reservoir development and hydrocarbon accumulation in the eastern Shunbei area and its geological significance,Tarim Basin[J].China Petroleum Exploration,2021,26(3):41-52.
[41] 邓尚,刘雨晴,刘军,等.克拉通盆地内部走滑断裂发育、演化特征及其石油地质意义:以塔里木盆地顺北地区为例[J].大地构造与成矿学,2021,45(6):1111-1126.
DENG Shang,LIU Yuqing,LIU Jun,et al.Structural styles and evolution models of intracratonic strike-slip faults and the implications for reservoir exploration and appraisal:a case study of the Shunbei Area,Tarim Basin[J].Geotectonica et Metallogenia,2021,45(6):1111-1126.
[42] 吕海涛,张哨楠,马庆佑.塔里木盆地中北部断裂体系划分及形成机制探讨[J].石油实验地质,2017,39(4):444-452.
LV Haitao,ZHANG Shaonan,MA Qingyou.Classification and formation mechanism of fault systems in the central and northern Tarim Basin[J].Petroleum Geology & Experiment, 2017,39(4):444-452.
[43] 韩俊,曹自成,邱华标,等.塔中北斜坡奥陶系走滑断裂带与岩溶储集体发育模式[J].新疆石油地质,2016,37(2):145-151.
HAN Jun,CAO Zicheng,QIU Huabiao,et al.Model for strike-slip fault zones and karst reservoir development of ordovician in northern slope of Tazhong uplift,Tarim Basin[J].Xinjiang Petroleum Geology,2016,37(2):145-151.
[44] 邓尚,李慧莉,张仲培,等.塔里木盆地顺北及邻区主干走滑断裂带差异活动特征及其与油气富集的关系[J].石油与天然气地质,2018,39(5):878-888.
DENG Shang,LI Huili,ZHANG Zhongpei,et al.Characteristics of differential activities in major strike-slip fault zones and their control on hydrocarbon enrichment in Shunbei area and its surroundings,Tarim Basin[J].Oil & Gas Geology,2018,39(5):878-888.
[45] 邓尚,李慧莉,韩俊,等.塔里木盆地顺北5号走滑断裂中段活动特征及其地质意义[J].石油与天然气地质,2019,40(5):990-998.
DENG Shang,LI Huili,HAN Jun,et al.Characteristics of the central segment of Shunbei 5 strike-slip fault zone in Tarim Basin and its geological significance[J].Oil & Gas Geology,2019,40(5):990-998.
[46] 漆立新,云露,曹自成,等.顺北油气田地质储量评估与油气勘探方向[J].新疆石油地质,2021,42(2):127-135.
QI Lixin,YUN Lu,CAO Zicheng,et al.Geological reserves assessment and petroleum exploration targets in Shunbei oil & gas field[J].Xinjiang Petroleum Geology,2021,42(2):127-135.
[47] 韩永科,张志遥,陈玮岩,等.塔里木盆地跃满地区超深油藏成藏地质条件与演化过程[J].天然气地球科学,2021,32(11):1634-1645.
HAN Yongke,ZHANG Zhiyao,CHEN Weiyan,et al.Geological conditions and evolution for the accumulation of the ultra-deep oil pools in the Yueman area,Tarim Basin[J].Natural Gas Geoscience,2021,32(11):1634-1645.
[48] 柴智.顺北-跃参地区奥陶系原油轻烃和金刚烷特征及地质意义[D].青岛:中国石油大学(华东),2020.
CHAI Zhi.Light hydrocarbon and diamondoid characteristics of ordovician oils in Shunbei-Yuecan block and their geological significance[D].Qingdao:China University of Petroleum,2020.
[49] 王璐瑶,邓尚,张仲培,等.顺8北三维区"串珠"发育特征与油气地质意义[J].特种油气藏,2017,24(6):66-71.
WANG Luyao,DENG Shang,ZHANG Zhongpei,et al.Development characteristics and petroleum geological significance of string beads in 3D seismic region of northern Shun 8 Block[J].Special Oil & Gas Reservoirs,2017,24(6):66-71.
[50] 李兵,邓尚,李王鹏,等.塔里木盆地塔河地区走滑断裂体系活动特征与油气地质意义[J].特种油气藏,2019,26(4):45-51.
LI Bing,DENG Shang,LI Wangpeng,et al.Strike-slip fault system activity and hydrocarbon geology understanding in Tahe of Tarim Basin[J] .Special Oil & Gas Reservoirs,2019,26(4):45-51.
[51] 马永生,何治亮,赵培荣,等.深层—超深层碳酸盐岩储层形成机理新进展[J].石油学报,2019,40(12):1415-1425.
MA Yongsheng,HE Zhiliang,ZHAO Peirong,et al.A new progress in formation mechanism of deep and ultra-deep carbonate reservoir[J].Acta Petrolei Sinica,2019,40(12):1415-1425.
[52] 汪洋,张哨楠,刘永立.塔里木盆地塔河油田走滑断裂活动对油气成藏的控制作用——以托甫39断裂带为例[J].石油实验地质,2022,44(3):394-401.
WANG Yang,ZHANG Shaonan,LIU Yongli.Controls of strike-slip fault activities on hydrocarbon accumulation in Tahe oilfield,Tarim Basin:a case study of TP 39 fault zone[J].Petroleum Geology & Experiment,2022,44(3):394-401.
[53] 张水昌,苏劲,张斌,等.塔里木盆地深层海相轻质油/凝析油的成因机制与控制因素[J].石油学报,2021,42(12):1566-1580.
ZHANG Shuichang,SU Jin,ZHANG Bin,et al.Genetic mechanism and controlling factors of deep marine light oil and condensate oil in Tarim Basin[J].Acta Petrolei Sinica,2021,42(12):1566-1580.
[54] 徐勤琪,张黎,李斌,等.塔河油田下寒武统烃源岩生排烃史差异演化及成藏效应[J].特种油气藏,2024,31(1):20-30.
XU Qinqi,ZHANG Li,LI Bin,et al.Differential evolutions of hydrocarbon generation and expulsion history of Lower Cambrian source rocks in Tahe oilfield and accumulation effects[J].Special Oil & Gas Reservoirs,2024,31(1):20-30.

塔里木盆地“深地一号”超深层超长位移井地质与工程融合实践

Practices of geological and engineering integration of ultra-deep and ultra-long displacement wells in the "Shendi-1" ultra-deep zone of Tarim Basin

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐

Metrics

本文评价

[1]	宋永, 庞志超, 李静, 陈建平, 王绪龙, 孙永革, 倪云燕. 准噶尔盆地南缘中部超深层凝析油成因与油源[J]. 石油学报, 2025, 46(3): 510-531.
[2]	王清华, 金武弟, 张荣虎, 杨海军, 徐振平, 杨宪彰, 张亮, 余朝丰. 塔里木盆地致密砂岩油气勘探新领域及资源潜力[J]. 石油学报, 2025, 46(1): 89-103.
[3]	朱永进, 郑剑锋, 俞广, 陈永权, 康婷婷, 张友, 陈胜, 熊冉, 韩长伟. 塔里木盆地轮南—古城地区寒武系大型台地边缘层序结构、沉积演化及油气勘探潜力[J]. 石油学报, 2024, 45(7): 1061-1077.
[4]	黄亚浩, 汪如军, 文志刚, 张银涛, 崔仕提, 李梦勤, 王彭, 何涛华. 塔里木盆地富满油田深层—超深层油气成藏过程[J]. 石油学报, 2024, 45(6): 947-960.
[5]	尚浩杰, 陈叔阳, 何云峰, 王立鑫, 尹艳树, 谢鹏飞. 断控缝洞型碳酸盐岩储层结构表征与三维地质建模——以顺北4号断裂带为例[J]. 石油学报, 2024, 45(11): 1662-1679.
[6]	王清华, 徐振平, 张荣虎, 杨海军, 杨宪彰. 塔里木盆地油气勘探新领域、新类型及资源潜力[J]. 石油学报, 2024, 45(1): 15-32.
[7]	宋永, 唐勇, 何文军, 龚德瑜, 晏奇, 陈棡, 单祥, 刘超威, 刘刚, 秦志军, 阿布力米提·依明, 尤新才, 任海姣, 白雨, 高岗. 准噶尔盆地油气勘探新领域、新类型及勘探潜力[J]. 石油学报, 2024, 45(1): 52-68.
[8]	赵金洲, 雍锐, 胡东风, 佘朝毅, 付永强, 吴建发, 蒋廷学, 任岚, 周博, 林然. 中国深层—超深层页岩气压裂:问题、挑战与发展方向[J]. 石油学报, 2024, 45(1): 295-311.
[9]	刘岩生, 张佳伟, 黄洪春. 中国深层—超深层钻完井关键技术及发展方向[J]. 石油学报, 2024, 45(1): 312-324.
[10]	郭秋麟, 黄少英, 卢玉红, 王建, 吴晓智, 陈宁生. 塔里木盆地台盆区下古生界油气系统模拟及资源分布预测[J]. 石油学报, 2023, 44(9): 1459-1471.
[11]	贾承造, 张荣虎, 魏国齐, 王珂, 余朝丰, 曾庆鲁, 司学强. 天山陆内冲断带构造动力控储效应与超深层规模储层[J]. 石油学报, 2023, 44(8): 1191-1205.
[12]	鹿腾, 李兆敏, 顾子涵, 穆金峰, 丁国, 王一平, 杜华君. 超深层稠油降黏泡沫体系微观作用机理及其矿场应用[J]. 石油学报, 2023, 44(8): 1344-1355.
[13]	陈利新, 贾承造, 姜振学, 苏洲, 杨美纯, 杨博, 邱晨. 塔里木盆地哈拉哈塘地区碳酸盐岩富油模式与主控因素[J]. 石油学报, 2023, 44(6): 948-961.
[14]	孔悦, 高晓鹏, 石开波, 刘波, 姜伟民, 于进鑫, 何卿, 吴淳. 塔北地区奥陶系鹰山组斑状白云岩成因及储层意义[J]. 石油学报, 2023, 44(4): 598-611.
[15]	赖锦, 肖露, 赵鑫, 赵飞, 黎雨航, 朱世发, 王贵文, 刘宏坤. 深层—超深层优质碎屑岩储层成因与测井评价方法——以库车坳陷白垩系巴什基奇克组为例[J]. 石油学报, 2023, 44(4): 612-625.